Incremental printing of symbolic information – Ink jet – Fluid or fluid source handling means
Reexamination Certificate
2001-11-26
2004-03-30
Nghien, Michael (Department: 2863)
Incremental printing of symbolic information
Ink jet
Fluid or fluid source handling means
C347S017000
Reexamination Certificate
active
06712461
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to an ink jet printing system comprising a print head, a replaceable ink container, an ink supply system connecting the ink container to the nozzles of the print head, and a temperature control system controlling the temperature of the ink in the ink supply system. The present invention further relates to an ink container for use in such a printing system and to a method of preparing and filling such an ink container.
It is well known in the art of ink jet printing that the viscosity of the ink being used has a critical impact on the performance of the print head and on the quality of the printed image, mainly because the viscosity of the ink influences the size of the ink droplets that are generated by the print head and are then deposited on the recording medium. Since the viscosity depends on the temperature of the ink, printing systems of the type indicated above are equipped with a temperature control system which controls the operating temperature of the ink and thereby indirectly controls the ink viscosity.
In an ink jet printing system intended for operation at a temperature close to room temperature, the ink may be heated beyond admissible limits by the heat energy dissipated in the print head in the course of droplet generation. In view of this problem, U.S. Pat. No. 5,168,284 discloses a temperature control system in which the print head is caused to generate non-printing pulses, the energy of which is not sufficient for generating an ink droplet and the only purpose of which is to dissipate to the ink an amount of heat which is comparable to the amount of heat created in a drop generating process. Thus, the equilibrium between heat generation in the print head and heat dissipation to a heat sink can be stabilized regardless of the number of droplets being generated per unit of time. By controlling the number and/or energy of the non-printing pulses, it is then possible to control the temperature of the ink either in an open loop or in a closed loop.
In a hot melt ink jet printer, where the operating temperature of the ink is in the order of 100° C. or more, a temperature control system is generally needed for keeping the ink at the operating temperature. EP-A-0 416 557 discloses a temperature control system which is used for adapting the operating temperature and hence the viscosity of the ink to the type of recording medium being used. The optimal viscosity of the ink is determined beforehand for a number of different types of recording paper. Then, the target temperature of a temperature control system is set to a value at which the viscosity of the ink corresponds to the optimal viscosity for the recording paper that is currently being used. Of course, since the viscosity of the ink depends not only on the temperature but also on the chemical composition of the ink, it is prerequisite in such a system that the chemical composition of the ink is known.
It is a general principle in the art of ink jet printing that a specific print head should only be used with a specific type of ink. If a different type of ink is used which is not adapted to the specific print head, then the deviation of the ink viscosity from the value for which the print head is designed may result in a poor quality of the printed image or even in damage to the print head. It has therefore always been a concern of manufacturers of ink jet printers to make sure that the printers are used only with a specified type of ink. To this end, it has been proposed, for example, in U.S. Pat. No. 5,049,898 and DE-A-34 05 164 that the ink container is provided with a memory element, e.g. a magnetic strip, a bar code or an electronic memory chip, the contents of which can be read when the container is mounted to the print head. The memory element may include among others information on the type of ink contained in the container, and when the type of ink read from the memory element does not match with the type of ink prescribed for the print head, then the printing operation will be blocked. In this case, the memory element may also include information on the amount of ink that is initially or currently contained in the ink container, and by monitoring the consumption of ink in the printer, it is possible to alert the user when the supply of ink in the container is going to be exhausted. This system may also be used to prevent unauthorized refilling of the ink container, thereby assuring that the container will always contain the type of ink that is specified on the memory element.
U.S. Pat. No. 5,502,467 discloses an ink jet print head which includes a viscosity detector with which the viscosity of the ink can be measured directly, and the result of this measurement is then fed back to the temperature control system, so that the temperature of the ink is varied in order to feedback-control the viscosity of the ink to a given target value. However, this system has the drawback that an expensive viscosity detector is needed for measuring the viscosity with sufficient accuracy. In practice, the viscosity detector is formed by a fluidic bridge circuit which only detects the offset of the viscosity from a preset target value. As a result, it would be difficult to vary the ink viscosity in accordance with the properties of the recording medium. In addition, the optimal viscosity of the ink may be different for different types of ink, e.g., for different ink colors in a multi-color printer. Thus, even when the viscosity is measured directly in the print head, it is difficult to keep the viscosity of inks of different type at the optimal value for obtaining high quality printed images.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide an ink jet printing system in which a reliable operation of the print head and a high quality of the printed image can be assured in spite of variations in the composition of the ink that is being used.
According to the present invention, this object is achieved by the feature that information permitting the determination of the optimal operating temperature for the ink is physically encoded on the ink container where it can be read by the temperature control system. The information permitting the determination of the optimal operating temperature may in the simplest case consist of a target value to which the temperature of the ink in the ink supply system shall be controlled. More generally, this information may include a plurality of target values among which a specific target value may be selected in response to other printing parameters, e.g. the type of print head and/or the type of recording medium. In yet another embodiment, this information may include one or more target values for the viscosity of the ink, along with a table or a function establishing a relation between temperature and viscosity for the specific ink contained in the container. The information may further include the time dependency of the optimal target value, e.g. in view of aging of the ink. In any case, when the ink container is inserted in the printer, the temperature control system can derive the target value for the temperature from the information encoded on the container, so that the operating temperature of the ink is optimally adapted to the composition of the ink and, as the case may be, to other printing parameters. This assures a very high print quality even in cases where the composition of the ink being used is not always exactly the same.
Accordingly, it is a remarkable advantage of the present invention that one and the same printer may accept different types of ink, because the viscosity of the ink can automatically be adapted to the demands of the print head by appropriate temperature control. This reduces significantly the expenses for manufacturing, storing, administrating and distributing suitable types of ink containers to a large number of customers using different types of printers.
On the other hand, even when only a specific type of ink is to be used for a given printer, the invention has the advan
Haan Maurice Johan Jozef
Koning Johannes
Wierink Hans
Nghien Michael
OCE -Technologies B.V.
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